Camera for viewing and sensing the health of a user sitting on a toilet

ABSTRACT

A cameras is connected to a device to move the camera over the user&#39;s body, posterior, and back, stationary cameras can also be used. The camera&#39;s view of the user, is show on a display, and allows a user to view difficult to view areas of their body, while they are sitting on a toilet. Some viewed areas might be neglected by being difficult to view. Being able to view the body areas lets the user, and or a computer, visually diagnosis the areas, for possible health concerns. Health sensors can also be used to perform health tests on the user&#39;s body. Health tests can include skin cancer, and blood pressure, etc. Heath test data is displayed, and can be sent to health providers, over the internet, for diagnosis. By practicing preventative health, problems can be detected early, allowing for early medical attention and management of possible health problems.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of provisional patent applicationSer. Nos. 62/044,414 filed 2 Sep. 2014, 62/033,634 filed 5 Aug. 2014,62/021,110 filed 5 Jul. 2014, and 62/081,579 19 Nov. 2014.

This application claims the benefit of patent application Ser. No.14/556,144 filed 29, Nov. 2014, and Ser. No. 14/312,697 filed 24, Jun.2014.

SEQUENCE LISTING

None

BACKGROUND FIELD OF THE EMBODIMENT

This application relates to cameras viewing a user while they sit on atoilet, allowing the user to view, hard to view areas of their body, ona display. The application relates to using the camera's view of thebody, and or health sensors to measure or diagnosis the user's health.The application relates to the user using the camera's view of theelimination positions to direct a bidets water stream to theirelimination positions.

BACKGROUND OF THE EMBODIMENTS

Users have used mirrors, for self-examination of their posteriors,genitals, and back. Using a mirror for examination of the user'sposteriors and back can be awkward, and difficult. The user holding amirror steady in a location, between their legs, for an extended periodof time may be strenuous. In may be difficult to position a light, toadequately illuminate the posterior and back positions.

The mirror flips the order of things in the direction perpendicular toits surface. Users can perceive their bodies mirrored images as beingflipped. It may be difficult for the user to analyse a perceived flippedimage of their body.

It is difficult for a user to view their back. A user may need toposition their back, so that the back is viewable in the mirror, andlook over their shoulder to see the reflection in the mirror. Using amirrored view to move their hand to a location on their back isdifficult due to having to move in a reversed direction. Two mirrors canbe used one to view the back, the second to view the first mirrors view,though this can be inconvenient to arrange.

Back scratchers have been used to scratch an itchy part of a person'sback, because it's difficult for the user to touch parts of their backwith their fingers. The use of back scratchers demonstrates thedifficulty in a person has accessing, or viewing and touching theirback.

A user could use a video camera, smart phone camera, or computer cameraconnected to a video monitor to image their posterior, and back. Theuser may have to hold the camera steady, and direct its viewing angle.In the case of the computer camera, the computer's location, might notbe a comfortable setting for self-examination.

Drawbacks of a Camera Inside a Toilet Bowel

Jung Yeong Mo's, Bidet and method for controlling same, WO2012086924 A2,filling date Nov. 10, 2011 uses a camera which is attached to a bidetcleaning wand, the camera is connected to a computer, and the computeris connected to a video monitor. The monitor is used to view, a user'selimination positions while they are sitting on a toilet, to visuallydiscern possible health problems with the user's elimination positions,and posterior, that may need attention, and to view the effectiveness ofthe bidet's cleaning of the user. A video camera connected to videomonitor, has been used to view a user's elimination positions, while theelimination positions are being sprayed with water. The view allow theuser to view, how well their elimination positions are being cleaned

A drawback of Jung Yeong Mo's, camera bidet is it only views the user'selimination positions and doesn't view the whole posterior, or wholebody of the user. The bidet water stream isn't directed by a computer.The user's health isn't checked by a computer. Only the user's visualinspection is used to detect health ailments.

A problem with the view is the camera uses computer zooming to enlargethe view of the elimination position, computer zoomed images becomepixelated and lose viewing definition.

The camera's angles of the view of the elimination positions doesn'tchange when the angle of the body area being viewed changes. The cameraview doesn't remain perpendicular to a viewed area, which can createperspective distortion. Perspective distortion is a warping ortransformation of a viewed area that differs significantly from what theobject would look like with a normal focal length.

The user has to touch buttons to operate the camera, which may havebacteria and viruses on them. The bacteria on the buttons may betransferred to the user's fingers when touched.

Other Body Viewing Devices

Full body scanning and viewing, use cameras and laser's, such as thosemade by the Human Solutions and TC company, to 3D image a user's body,and are only used to measure the user size, and changes in the user'ssize, for body weight changes, and body muscle changes, Some bodyscanners are used to fit clothes for the user's body.

An example of remote viewing of a user's body is the use of robots forsurgery. A health care provider can control a Da Vinci robot surgeon,while viewing a 3D image of the body on a screen. A robot made by theAnvari Company, called Zeus, is used to operate remotely on a patient.

The electronic bidets cameras and body viewing cameras, known sufferfrom a number of disadvantages:

Disadvantages

(a) A camera doesn't look at the whole posterior, and other areas of theuser's body, such as, the back, and face, etc., only the eliminationpositions.

(b) Only the user's elimination positions are view for health problems.

(c) A camera's view of a body isn't analysed by a computer for healthproblems.

(d) A camera doesn't use optical zoom, it only uses computer zoom

(e) A camera angles view of the user's body isn't always perpendicular,which can lead to distortion of the viewed body area.

(f) Health sensors aren't used to automatically sense a user's health.

(g) Health care provider's don't remotely operate and view a user usinga camera.

(h) A computer isn't used to direct a bidets water stream to the user'selimination positions.

(i) Bacteria and virus can be transferred to a user's fingers bytouching buttons, which have bacteria and viruses on them, whenoperating an elimination position viewing camera.

SUMMARY

This summary outlines three embodiments of a toilet body viewing camera.

1. Cameras operated view the user while they are sitting on a toilet.The cameras can be operated by a user or computer The body viewingcameras are helpful in allowing the user to view, on a display, areas oftheir body that are difficult to view, such as, the back, and posterior.The cameras can view the user's entire body.

2. Health sensors, and cameras measure and diagnose a user's healthwhile they are sitting on a toilet. Health sensors, and cameras canmeasure and diagnose the health conditions of the user body, such as,blood pressure, blood glucose, and skin cancer, etc. Depending on thehealth test sensors, and or cameras, health tests can be performed bycontacting the user's body, or by non-contact viewing of the user'sbody. The health results are viewable, on a display viewable by theuser.

3. A bidet water stream can be visually directed, by a user, orcomputer, at the user's elimination positions while they are sitting ona toilet. A camera is attached to a bidet wand, and can view the bidetswater stream's contact with the user's elimination positions. The useror computer can use the view of the water stream, to move the waterstream to areas on their elimination positions. The visual directing ofthe water stream allows for a more accurate directing of the waterstream on the user's elimination positions. The user can visually viewtheir elimination positions, while streaming water on to them, and afterstreaming, to be sure that they are being thoroughly washed.

The three embodiments can be combined into one embodiment, such as, theuser can view their body on the display with the camera, they can senseor measure their health with the camera and health sensors, and they orthe computer can direct the water stream on their elimination position.

The components of the combined three embodiments, include a tabletcomputer, the tablet computer having a display, an eye tracking inputdevice connected to the computer the computer connected to a motorcontroller, the computer and motor controller connected to, a cameramoving device, a camera attached to the moving device, health sensorsattached to the moving device, an electronic bidet, health sensorsattached to a toilet seat, a light attached to the moving device, atoilet, health sensor software, body recognition software, genitalrecognition software, eye tracking software, and system operatingsoftware, programmed into the computer, etc.

Accordingly several advantages are to provide an improved visual healthmonitoring toilet area, a health sensing area, and an improved wateraiming bidet, as a means of providing a more sanitary, fun, and healthyself-examination experience for a person.

ADVANTAGES

(a) The user can view their back, and posterior.

(b) By viewing their body, posterior and back, a user can possiblydetect health concerns in the early stages, and seek treatment for them,before they progress to more serious health problems in the future.

(c) Health tests can be performed by the user, or automatically by thecomputer. Health test are conveniently preformed in a bathroomenvironment. Health testing devices are centrally located in onelocation in the bathroom. The health testing devices aren't misplaced.Remembering to perform health tests is more likely, in a location thatthe user frequents often, such as, the bathroom.

(d) The computer can automatically visually diagnose possible healthconcerns viewed on their body, such as, skin cancer, and alert the userto the health concern visually on the display.

(e) The computer can diagnosis areas of their body, by comparing imagedabnormal body areas to a computer data base or an internet data base ofvisual body ailments, to find a match of the images, and ailments.

(f) Health sensors can passively test the user's blood sugar level,blood pressure, temperature, weight, etc., their isn't need to have bodyfluids analysed.

(g) The user worries less about their health, by having up to datehealth information from viewing and health testing their bodies.

(h) The camera can be zoomed optically to produce a superior view of anarea, as opposed to a computer zoom which creates a pixilation of theview of the image, and a loss of definition of the image.

(i) The computer can recommended the user seek further health care.

(j) Health test results can be automatically sent, to health careprovider for analyses, over the internet.

(k) The computer can automatically scan or view the user's body,following either a user preprogrammed route or a default programmedroute.

(l) The transmission of germs to a user's fingers is decreased, by theuser operating a camera and health seniors touch freely, with a touchfree input device.

(m) The user, or the computer can direct a bidet water stream at theirelimination positions, and view how well the water stream is cleaningthe user's elimination positions.

A camera for self-examination, is more easy to use, and is in a morecomfortable private toilet setting. Self-examination using a camera in abathroom, is a more comfortable setting then other locations, sincepeople are more accustomed to privately viewing their bodies in thebathroom.

Still further advantages of the improved body camera and health sensorswill become apparent, from a study of the following description anddrawings.

DRAWINGS Figures

The drawings, and closely related figures may have the same number butdifferent alphabetic suffixes.

FIG. 1 shows a perspective view of to a camera moving device, inside atoilet bowel, a tablet computer connected to the camera moving device,and a user sitting on a toilet seat.

FIG. 2 shows a perspective view of a camera moving device, and a usersitting on a toilet seat.

FIG. 3 shows a perspective view of a camera moving device connected to abidet inside a toilet bowel, a camera, a ultrasonic distance sensor, alight, and health sensors, attached to the camera moving device.

FIG. 4 shows a front view of a tablet computer, an eye tracking sensorattached to the computer, a display, the display showing a user'sposterior, highlighted health ailments on the posterior, text healthalerts, a menu, and a cursor

FIG. 5 shows a perspective view of a flexible hose camera moving device,with a camera and health sensors attached to the camera moving device.

FIG. 6 shows a perspective view of a back camera and health sensormoving, a health sensing toilet seat, and a computer operated bidet, andtablet computer.

FIG. 7 shows a perspective view of a curved wall encompassing a toilet'sback and sides, with two camera moving devices attached to the curvedwall, each camera moving device having a camera and health sensorsincorporated into to them.

FIG. 8 shows a perspective view of a health sensor contacting a user'sarm. The health sensor connected to a camera moving device, incorporatedinto a curved wall.

FIG. 9 shows a close up perspective view of a curved wall encompassing atoilet's back and sides, with two camera moving devices attached to thecurved wall, each camera moving device having a camera and healthsensors incorporated into to them.

FIG. 10 shows a perspective view of a toilet seat with attached camerasand health sensors, a weight scale, a Kinect camera, and a tabletcomputer.

FIG. 11 shows a perspective view of a two camera moving devices oncircular tracks, a toilet, and a tablet computer.

FIG. 12 shows a perspective view of stationary cameras, and 3D imaginglasers attached to a semi-circular wall surrounding a toilet, and atablet computer.

FIG. 13 shows a perspective view of a stationary cameras, and 3D imaginglasers attached to an inside of enclosed walls of a semi-cubesurrounding a user holding rail, a joy stick attached to the rail, and3D headset display.

FIG. 14 shows a perspective view of a three camera moving devices, withcameras and heath sensors, adjacent to a rotational floor area, with auser holding rail, a joystick attached to the rail, and a computerattached to rail.

FIG. 15 shows a close up perspective view of camera incorporated into acamera moving device, and a joystick connected to a user holding rail.

FIG. 16 shows a perspective view of a camera, and a computer or userbidet water aiming device inside a toilet, and a tablet computer.

FIG. 17 shows a front view of a tablet computer, a mid-air hand gesturerecognition sensor attached to the computer, a display, and the displayshows a water stream contacting a user's posterior, and eliminationpositions.

FIG. 18 shows a perspective view of a bidet water nozzle, and cameramoving device connected to a bidet inside a toilet bowel, the cameramoving device is attached to a camera, a ultrasonic distance sensor, alight, and health sensors.

FIG. 19 shows a perspective view of cameras, and imaging lasers attachedto the bottom on a toilet seat lid, and a tablet computer.

FIG. 20 illustrates a block diagram of hardware connections betweencomponents of a movable user health detecting camera.

FIG. 21 depicts a software flowchart of a movable user health detectingcamera, and health sensors.

FIG. 22 illustrates a block diagram of hardware connections betweencomponents of a movable user health detecting camera, and healthsensors.

FIG. 23 depicts a software flowchart of a movable user health detectingcamera, and health sensors.

FIG. 24 illustrates a block diagram of hardware connections betweencomponents of a user or computer operated visual bidet water streamingdevice.

FIG. 25 depicts a software flowchart of a user or computer operatedvisual bidet water streaming device.

REFERENCE NUMBERS

-   -   102 camera    -   104 camera moving device or bidet camera wand    -   106 tablet computer    -   108 display    -   110 user    -   112 bidet wand water    -   114 bidet    -   116 toilet    -   118 lens air drier nozzle and water nozzle    -   120 cursor    -   124 toilet bowel    -   126 toilet seat    -   128 light    -   140 back elimination position    -   142 front elimination position    -   144 posterior    -   146 possible precancerous skin lesion    -   148 genital herpes    -   150 hemorrhoids    -   152 ultrasonic distance sensor    -   154 angle measuring laser    -   156 user input eye tracking device    -   158 displayed view    -   160 rash    -   164 display alert    -   166 menu    -   168 highlighted health concern    -   192 heart rate monitor, and blood oxygen saturation monitor    -   502 camera    -   506 tablet computer    -   508 display    -   524 toilet bowel    -   530 skin cancer detecting laser    -   532 blood glucose measuring laser    -   534 blood pressure sensor    -   556 a user mid-air gesture recognition camera    -   562 visual temperature sensor    -   564 menu icons    -   566 flexible camera moving device or bidet camera wand    -   568 body elimination sensor    -   570 user detection sensor    -   604 camera moving device or bidet camera wand    -   606 camera connected to a bidet wand,    -   608 health sensors, and cameras attached to a toilet seat    -   702 camera    -   704 camera moving device    -   706 tablet computer with display    -   722 The Raman spectroscopy device    -   728 light    -   730 skin cancer detecting light    -   732 blood glucose measuring laser    -   734 blood pressure sensor    -   738 malaria detector    -   752 ultrasonic distance sensor    -   754 angle measuring laser    -   762 visual temperature sensor    -   1002 camera    -   1004 camera moving device    -   1006 tablet computer    -   1008 display    -   1022 electrocardiogram EKG    -   1026 toilet seat    -   1028 light    -   1030 skin cancer detecting laser    -   1032 blood glucose measuring laser    -   1034 blood pressure sensor    -   1038 heart rate monitor, and blood oxygen saturation monitor    -   1056 mid-air hand gesture recognition camera    -   1062 temperature sensor    -   1070 feet weight scale    -   1072 seat weight scale    -   1074 Kinect camera    -   1076 Electrical impedance sensors    -   1078 health results shown    -   1202 camera    -   1208 display    -   1290 3D lasers    -   1292 camera attaching device    -   1302 camera    -   1304 camera and laser device    -   1306 Hololens 3D display    -   1380 body imaging laser    -   1382 body rail    -   1402 camera    -   1404 camera and laser device    -   1484 rotating floor disc    -   1486 joystick    -   1488 health sensors    -   1602 camera,    -   1604 camera moving device or bidet camera wand    -   1612 bidet wand water    -   1616 toilet    -   1618 lens and ultrasonic sensor air drier nozzle    -   1608 display    -   1614 bidet    -   1620 cursor    -   1622 water stream    -   1624 toilet bowel    -   1628 light    -   1640 back elimination position    -   1642 front elimination position    -   1652 ultrasonic distance sensor    -   1656 a user mid-air hand gesture recognition device    -   1696 bottom air dryer nozzle    -   1902 cameras    -   1904 toilet seat lid    -   1906 computer    -   1908 microphone    -   1910 LED lights

DETAILED DESCRIPTION FIRST EMBODIMENT

A Movable Camera Used for Viewing a User's Posterior Description

A camera 102 view's a user's posterior 144, from inside a toilet bowel124, when they sit on a toilet seat, as illustrated in FIGS. 1, 2, 3 and4. The view of their posterior is shown on a display, as illustrated inFIG. 4. The display is viewable by the user 110. Software for visuallyidentifying health problems, such as, skin cancer 146, herpes 148, skinrash 160, hemorrhoids 150, is programmed into the computer, as shown inFIGS. 2 and 4. The computer has a visual data base of health ailments.The computer connects a visual data base of health ailments on aninternet, or internet cloud.

Camera

The video camera is connected to a tablet computer 106, and a motorcontroller (not shown), and attached to a bidet wand or camera movingdevice 104. Heath sensors are attached to the bidet wand, and connectedto the computer. A second bidet wand sprays water at the user'selimination positions 140, 142. In and other embodiment a bidet couldhave one wand which streams water to the user, and a camera and heathsensors attached to the wand.

A light 128 is connected to a motor controller. The light is attractedto the wand. The motor controller is connected to the computer. Themotor controller is connected to a building alternating current powersupply source (not shown).

The camera lens 102, is a par focal lens. The camera, and camera lens iswater proof. A bidet connects to the bidet wand. The bidet connects tothe computer.

The camera lens is positioned in the wand 104 to view the user'sposterior, when the user is sitting on the toilet 1116. The wandincorporates the camera 102, the camera lens, an air nozzle drier 118, alens water flushing nozzle 118, a camera angle measuring laser 154, andan ultrasonic distance sensor 152.

The camera 102 can use two dimensional 2D, and or three dimensional 3Dimaging of the user. The camera's software, is programmed into thecomputer. Three dimensional cameras can be used, such as, an Intel realsense camera, and real sense software, a Kinect technology camera sensormade by the PrimeSense company, a Cambord Pico made by the OptomaCompany in the United Kingdom, a Kinect camera made by the Microsoftcompany, or a XTR3D camera made by the Creative Reality company, inIsrael.

The computer 106 comprises a processor, the processor is programmed witha system operating software. The processor is connected to a memory forstoring and retrieving data.

For brevity when referring to the devices connection to the computer, itis implied that the devices and the computer communicate with eachother. The devices are also connected to the motor controller, whichsupplies electrical power to the device and or devices.

User Input Device for Moving the Camera

A touch free user input device is connected to the computer. The inputdevice is an eye tracking input device 156, made by the Tobii Company,and is connected to the computer. Other touch free user input devicescan be used such as, mid-air hand gesture devices like a Leap made bythe Leap Company, or an Intel realsense mid-air hand gesture camera.Voice recognition for voice commands can be used for user input. Amicrophone can be connected to the computer, or a microphone built intothe tablet can be used hear the voice commands. The computer can beprogrammed with voice recognition software. Touch free softwareassociated to the touch free input device used, is programmed into thecomputer. A user thought input device, made by the Emotiv Company, canbe connected to the computer. A joy stick can be connected to thecomputer. A touch screen can be connected to the computer.

Bidet Wand

The bidet camera wand or camera moving device 104 is connected to thecomputer, and the motor controller. The bidet camera wand is attached tomotors or linear actuators (not shown).

The computer is programmed, with bidet wand positioning software. Thebidet can be temporarily attached to the toilet. The bidet's temporaryattachment, allows the bidet to be detachably connected to the toilet,or other toilets a multiple amount of times. The bidet can bepermanently attached the toilet 116. The camera moving device 104 isspring loaded, and will move if the user's movements contacts the wand.

Camera Distance

An ultrasonic distance sensor 152, is attached to the camera movingdevice wand. The distance sensor could also be a laser distance sensor,or an optical distance sensor, etc. A distance measuring software isprogrammed into the computer. The sensor can also be used to detect thepresence of a user's presence on the toilet seat.

Camera Angle

A camera angle measuring Laser 154 is attached to the bidet wand. Thecamera angle measuring Laser is connected to the computer, and the motorcontroller. A camera angle measuring software is programmed into thecomputer. The computer is programmed with software to detect the lasersangle.

Display

The display and computer are part of the tablet computer. In anotherembodiment, a camera could be connected directly to a display,by-passing the computer. A user input eye tracking device 248 isconnected to the tablet. The display can be a liquid crystal displayLCD, or plasma display, etc. Camera video storage is connected to thecomputer. The tablet computer is a waterproofed tablet, and is made bythe Sony Company.

The displays shows an interactive menu 166, in FIG. 4. Menu itemsinclude, move camera, zoom camera in and out, record views, connect tointernet, network video conference, skype, send video over internet,light intensity increase or decrease, etc. Health alerts 164 are show indifferent colors on the display. Detected health concern are highlighted168 on the display, in different colors. The color is associated to thecolor of the health alert text color, so the user can associate thealert color with the heighted health concern.

The computer 106 can connect to the bidet with a wireless connection, byusing radio wave signals, such as, Bluetooth radio waves, WIFI radiowaves, and a direct WIFI radio wave connection, etc. The tablet canconnect to the bidet using a wired connection. The tablet computer 106can be attached to a toilet arm rest, a tablet stand, or it can be usedunconnected.

Keeping the Camera Lens Unobstructed

An air nozzle 118 and water nozzle 118 is adjacent to the camera lens.The air and water nozzle connects to an air pump inside the bidethousing. A water pump is inside the bidet housing 114. An air and watervalve connects to the computer. The air and water pump are connect tothe computer.

Safety features include using a ground fault circuit interrupter GFCL.The GFCL is an electrical device that disconnects a circuit whenever itdetects, that the electrical current is not balanced between theenergised conductor and the return neutral conductor. Such an imbalancemay indicate current leakage, through the body of a person, who isgrounded and accidentally touching an energised part of the circuit. TheGFCL are designed to disconnect quickly enough, to prevent injury causedby such shocks.

When the word connected is used, in the reference to electrical devices,it's implied that the electrical components, are connected by electricalwire and or information conducting, communicating wire. Other componentsmay use other connections, such as, components which are attached by aphysical connection, or connected by radio waves, etc. The bidet systemuses a connection to a building water supply, to supply water to thebidet water system.

Means

The computer means is the processer connected to a storage, foranalysing data and storing data. The computer means, is the computerprogrammed with system operating software, bidet wand moving software,user eye tracker input analysing software, and camera imaging recordingand displaying on the display software.

The user camera moving means is the user input operated eye tracker,which is used for signaling the computer to move the camera over theposterior. The camera moving means is the camera attached to the movablebidet wand. The health sensor means is the health sensor. The displaymeans is the display. The imaging device means is the camera. The bidetmeans is the bidet. The toilet means is the toilet.

Software

The processor may be capable of executing program instructions, (e.g.compiled or non-compiled program logic and/or machine code) stored indata storage to carry out the various functions described. The datastorage, may include a non-transitory computer readable medium, havingstored thereon program instructions that, upon execution by clientdevice, cause client device to carry out any of the methods, processes,or functions disclosed in the specification and/or the accompanyingdrawings. The execution of program instructions by processor may resultin processor using data.

The device may further include on-board data storage, such as memorycoupled to the processor. The memory may store software that can beaccessed and executed by the processor, for example. The host may be anytype of computing device or transmitter including a laptop computer, asmart phone, etc., that is configured to transmit data to the device.The host and the device may contain hardware to enable the communicationlink, such as processors, transmitters, receivers, antennas, etc.

Communication Link

A radio transmitting and receiving device (not shown) for connecting tothe internet is connected to the computer, such as, Wi-Fi device or cellphone device has The WIFI device connects to the internet using Wi-Firadio frequencies to connect to WIFI internet router which is connectedto the internet.

For example, the communication link may be a wired link via a serial bussuch as USB, or a parallel bus. A wired connection may be a proprietaryconnection as well. The communication link may be a wireless connection,such as Bluetooth, IEEE 802.11 (IEEE 802.11 may refer to IEEE802.11-2007, IEEE 802.11n-2009, or any other IEEE 802.11 revision), orother wireless based communication links. In another example, the systemincludes an access point through which the device may communicate withthe internet. In this example, the device may not require connectivityto the host. The access point may take various forms. For example, ifthe device connects using 802.11 or via an Ethernet connection, theaccess point may take the form of a wireless access point (WAP) orwireless router. As another example, if the device connects using acellular air-interface protocol, such as a CDMA or GSM protocol, theaccess point may be a base station in a cellular network that providesInternet connectivity via the cellular network. As such, the device mayinclude a wired or wireless network interface through which the devicecan connect to the access point. As an example, the device may beconfigured to connect to access point using one or more protocols suchas 802.11, 802.16 (WiMAX), LTE, GSM, GPRS, CDMA, EV-DO, and/or HSPDA,among others. Furthermore, the device may be configured to connect toaccess point using multiple wired and/or wireless protocols, such as“3G” or “4G” data connectivity using a cellular communication protocol(e.g., CDMA, GSM, or WiMAX, as well as for “Wi-Fi” connectivity using802.11). Other examples are possible. Alternatively, the host mayinclude connectivity to the internet, and thus, the device may accessthe internet through the host.

Software Storage

The program code may be stored on any type of computer readable medium,for example, such as a storage device including a disk or hard drive.The computer readable medium may include non-transitory computerreadable medium, for example, such as computer-readable media thatstores data for short periods of time like register memory, processorcache and Random Access Memory (RAM). The computer readable medium mayinclude non-transitory media, such as secondary or persistent long termstorage, like read only memory (ROM), optical or magnetic disks,compact-disc read only memory (CD-ROM), for example. The computerreadable media may be any other volatile or non-volatile storagesystems. The computer readable medium may be considered a computerreadable storage medium, for example, or a tangible storage device. Thedisplay shows camera functions icons, such as, move camera, zoom camerain and out, record views, and activation icons.

Programming the Computer

A Kinect for Windows software developer's kit or Microsoft RoboticsDevelopers Kit can be used to program the computer 106 for the Kinectsensor. An Intel perceptual computing software developer's kit could beused to build applications for the automatic bidet. The MicrosoftSoftware Developers Kit can be used to build automatic bidet functionapplications. Various programming languages can used to program thecomputer 106 such as C++, C#, and Microsoft Visual Studio Ultimate,FAAST key mapping software, Microsoft Visual Programming Language,Microsoft NET 4.0 XNA 4.0, Silverlight 4.0, and Visual Basic.NET. TheMicrosoft Software Developer's Kit allows developers to write Kinectapplications in C++/CLI, C#, Microsoft Visual Programming Language, orVisual Basic .NET. The Microsoft Robotics Developers Studio applicationcontains a graphical environment, Microsoft Visual Programming Language:(VPL) command line tools which may allow a developer to deal with VisualStudio projects (VS Express version) by possibly using C#, and 3Dsimulation tools.

The computer 106 may be programmed using, an Intel software developer'skit, a Microsoft windows commercial software development kit, or Linuxoperating system, or Android operating system, or Blackberry operatingsystem, or apple operating system. Computer program code for carryingout operations of the object detection and selection mechanism may bewritten in any combination of one or more programming languages,including an object oriented programming language such as Java,Smalltalk, C++ or the like and conventional procedural programminglanguages, such as the “C” programming language or similar programminglanguages. The program code may execute entirely on the computer, partlyon the computer, as a stand-alone software package, partly on thecomputer and partly on a remote computer or entirely on the remotecomputer or server. In the latter scenario, the remote computer may beconnected to the computer through any type of network, including a localarea network (LAN) or a wide area network (WAN), or the connection maybe made to an external computer (for example, through the Internet usingan Internet Service Provider).

Flowchart

The object detection and selection mechanism is described below withreference to flowchart illustrations and or block diagrams of methods,apparatus (systems) and computer program products according toimplementations thereof. It will be understood that each block of theflowchart illustrations, FIG. 20, and or block diagrams, andcombinations of blocks in the flowchart illustrations and/or blockdiagrams, can be implemented or supported by computer programinstructions. These computer program instructions may be provided to aprocessor of a general purpose computer, special purpose computer, orother programmable data processing apparatus to produce a machine, suchthat the instructions, which execute via the processor of the computeror other programmable data processing apparatus, create means forimplementing the functions/acts specified in the flowchart and/or blockdiagram block or blocks.

The computer program instructions may be loaded onto a computer or otherprogrammable data processing apparatus, to cause a series of operationalsteps to be performed on the computer 106, or other programmableapparatus to produce a computer implemented process, such that, theinstructions which execute on the computer 106, or other programmableapparatus provide processes, for implementing the functions or actsspecified, in the flowchart and or block diagram block or blocks.

FIG. 20 is a flowchart illustrating a method of operating a useroperated posterior viewing and health sensing camera. Software steps ofthe bidet operation, may include some of the following steps, user inputto move camera to a desired location detected by a user input device(2102), camera moves to a requested location on posterior, including thefront elimination position and back elimination position (2106), cameramaintains a predetermined distance from posterior, as camera moves overposterior (2108), camera maintains an optimal viewing angle of theposterior, as camera moves over posterior (2110), user request forcomputer to visually analyses an area on the posterior is detected(2114), computer monitors view of posterior for visual differences whichare outside of a healthy skin image (2116), a visual difference from thehealthy image is found on the posterior (2118), image of visualdifference on posterior sent over internet, to health providers forcanalisation (2120), health care provider's diagnosis of different imagereceived (2122), computer searches for a match between outside imagewith images of cancer, and body ailments in a computer data base, or inan internet data base (2124), computer finds a match between images ofthe posterior and images of skin cancer and ailments (2126), image ofposterior and computer image match, and diagnostic data associated tocomputer image, and or health care provider diagnosis is shown on thedisplay (2128), different imaged object on posterior is surrounded by ahighlighted area on the display (2130), request to save images and datato storage (2132), images are saved to storage (2134)

Block Diagram

FIG. 20, illustrates a block diagram of some of the hardware componentsconnections of the device, camera (2002), display (2004), computer andmotor controller (2006), camera moving device (2008), light (2010), userinput device (2012), camera viewing angle measuring device (2014),camera distance from user measuring device (2016).

In addition, for the method and other processes and methods disclosedherein, the flowchart shows functionality and operation of one possibleimplementation of present embodiments. In this regard, each block mayrepresent a module, a segment, or a portion of program code, whichincludes one or more instructions executable by a processor forimplementing specific logical functions or steps in the process.

In the detailed description, reference is made to the accompanyingfigures, which form a part hereof. In the figures, similar symbolstypically identify similar components, unless context dictatesotherwise. The illustrative embodiments described in the detaileddescription, figures, and claims are not meant to be limiting. Otherembodiments may be utilized, and other changes may be made, withoutdeparting from the scope of the subject matter presented herein. It willbe readily understood that the aspects of the present disclosure, asgenerally described herein, and illustrated in the figures, can bearranged, substituted, combined, separated, and designed in a widevariety of different configurations, all of which are explicitlycontemplated herein.

A User Movable Camera Used for Viewing a User's Posterior on a DisplayOperation

The user uses the camera 102 to view their posterior 144, for signs ofpossible health problems, and to view areas of their body which aredifficult to view. The view of their elimination positions can be usedto see how well the bidets water stream has washed their positions. Ifthe user visually detects that their positions haven't been completelywashed, the user can rewash their positions. The user can view theirposition while water is being streamed on them. The heath sensorspreform health tests on the user's body.

The user sits on the toilet seat 126. The light 128 activates andilluminates the user's posterior, and elimination positions, illustratedin FIG. 2. The camera activates, and views the user's posterior. Theview of the user's posterior, genitalia and elimination positions isshown on the display 108. The view is viewable by the user. The usermoves the camera's viewing area, to desired viewing areas over theposterior, and viewable area of the legs. The user moves the camera to adesired view of the posterior. The camera continually sends real timevideo images of the posterior to the display. The display shows thechanging view of the posterior in real time.

Computer Diagnosis of Ailments

As the user move the camera over the posterior, the computer analysesthe images for matches with images of skin cancer, or other ailments, inthe computer's visual data base of ailment, or to a data base of ailmenton the internet, or the internet cloud. The computer identifies objectson the skin that are abnormal looking, which are outside of apreprogrammed visual profile of healthy skin. When visual healthproblems are detected the user is alerted to the problem by a visualalert on the display.

Health alerts 164 are shown in text on the display. The text alert isassociated to a highlighted 168 on the user's body. The associationallows the user to view the health alert, and locate the associatedalert on the body. The health alerts and associated highlights alerts,are in the same color. The same color can be in colors, and shapes, suchas, red, green, blue, circle, and triangle, etc.

User Input Device for Moving the Camera

The eye tracker has a view of the user's eyes. The eye tracker tracksthe eyes. The eye movements are interpreted, as user input by the eyetracker. The user turns one of the menu items of the system on by movinga cursor 120, with their eye movements, to a menu item they would liketo activate. The user holds their view on the cursor on the item, andthe item is click activated. The user eye tracking sensor 156 iscontinually activated.

For example, the user moves their eyes in view of the eye trackingsensor, to move the camera 102 forward, which moves the view of theposterior, on the display, to a more forward position. Using the eyetracking sensor, the user moves the displayed cursor to the left of theposterior, and stops the cursor at an area they want the cameras view tomove to, the view moves to the left side following the cursor and stopswhen the cursors movement stops.

For a different view the user then moves the displayed view to the rightside of the user's back elimination position. The user moves the viewback ward and to the right side. The user zooms into the eliminationposition, creating a magnified view of the viewed elimination position,on the display. The user analyses the video images of their posterior onthe display, for signs of possible health concerns. The user isreassured that they have examined their posterior.

The user uses the displayed view 158, to discern how much eye input intothe eye tracking sensor they need to move the camera's view to an area.They use the view of the cameras view of their body to guide themovement of the camera's view, using the eye tracking sensor.

By viewing on the display where they want the camera to move with theireyes the user can rotate the wand right and left, the camera can tilt orrotate forward and backward, extend and retract the bidet wand, move thewand to the right side and to the left side, and move the wand up anddown.

The computer instructs the motor controller to supply power or a voltageto the light 128. The motor controller receives the instructions fromthe computer 106 to power the light. The motor controller sends power tothe light. The light illuminates when receiving power from the motorcontroller. The computer sends instructions to the motor controller tosupply power or the camera moving device 104, or the camera, etc. Thecomponents are powered and operated by power from the motor controller,and operating instructions from the computer.

The bidet 114 has a motor controller. The computer instructs the motorcontroller to supply a voltage to the bidet wand motors and actuators,to move the wands. In another embodiment the computer could communicatewith, a bidet that has a computer in the bidet, and have the bidet'scomputer, instruct the bidet motor controller, to supply the voltage, tothe bidet devices.

Camera

The camera 102 can be zoomed optically to produce a superior view of anarea, as opposed to a computer zoom which creates a pixilation of theview of the image, and a loss of definition of the image.

The camera lens 102, is a par focal lens which uses optical zoom thatchanges the lens focal length distance. The par focal lens maintainsfocus while being zoomed in or zoomed out, as its focal length changes.

The camera can digitally zoom in and out to enlarge or decrease the viewof the user's posterior. Digital zoom is accomplished by the computercropping an image down to a centered area with the same aspect ratio asthe original. The zoomed digital photographic or video image's qualityis reduced.

The lens has a lens cover (not sown) made of a see through covering,such as, Gorilla Glass, or Safire, etc., which protects the lens fromwear.

The camera could use a varifocal lens, whose focus changes as the lenszooms in or zooms out, and have the computer refocus the lens, to aclear focus view, as its focus changes while zooming. The camera canoptically and digitally zoom in and out to enlarge or decrease the viewof the user's posterior

Bidet Wand

The motors or linear actuators can move the wand from right to left,pivot left or right, rotate them clockwise or counter clockwise, andmove up and down in relations to the bidet. The wands can extend, andretract into the bidet. The wand can move the camera to within a default5 centimeter of the user's viewable body area, inside a toilet bowel.The camera can contact the user's body, though this may obscure thecamera's view.

The wands movements are directed by the user. The user instructs thecomputer to move the wand to a desired location. The computer directsthe bidet to move the wand to the desired location. The non-camera bidetwand moves to stream water to the user's elimination position.

The ability of the user to move the camera to almost any location on theuser's posterior, allows the user to clearly view almost any locationthey desire, on the display 108. The male user can view their anus, backelimination position 140 and penis, front position 142, legs, posterior,and surrounding area. A female user can view their vulva, front position142 and anus, back position 140, posterior and surrounding area. Theuser can manually view the front and back elimination positions whilethey are eliminating, and view the elimination. The user can view waterfrom the bidet being streamed to their elimination positions in realtime. A larger area can be viewed to speed the viewing, of an area hasbeen viewed before.

After the user wash has finished, the wands, retracts into the bidethousing 114. Inside the housing, the bidet wash wands are washed andsterilized. After the wands are washed and sterilized inside the bidethousing, the wands extend from the housing and are ready, for the nextviewing, and wash cycle.

The wands will move when contacted by the user to avoid possiblediscomfort to the user, and to avoid damage to the wand.

Camera Distance

The ultrasonic distance sensor 152, allows the computer to measure thecamera wands distance from the user. The measured distance allows thecomputer to move the camera and maintain an optimal, and or pre-setviewing distance from the user's body, and to avoid the camera's contactwith the user's body while moving the camera. The sensor 152 keeps thecamera wand, at a minimum distance from the user, while moving andstationary, to avoid contact with the user.

The user can move the camera's view over their posterior, and view theirposterior on the display 108. The assembled bidet components allow theuser to visually examine their posterior while they are sitting on thetoilet seat. The user's exposed posterior, includes the user's genitals,and front 142 and back elimination 140 positions.

The camera can scan, view the entire viewable area of the user'sposterior, by moving over small or large areas of the posterior. Thecamera can view a 4 centimeter by 3 centimeter viewing area as it movesover the posterior. The view area can be enlarged, by the user, byincreasing the distance of the camera lens from the posterior, ordecreasing the zoom of the lens, or both. The view area can bedecreased, by the user, by decreasing the distance of the camera lensfrom the posterior, or increasing the zoom of the lens, or both. Theviewing area is shown on the display.

Camera Angle

The angle detecting laser 154 measures the camera angles view of theuser. The computer is programmed with software to detect the lasersangle.

The computer adjusts the cameras viewing angle as it moves over theposterior, to maintain a perpendicular viewing angle of the posteriorarea. The camera's viewing angle changes as it view moves over thechanging angles and curves of the posterior. The computer moves thecameras angle to maintain a 90 degree viewing angle of the viewed area.The computer moves the camera to compensate for the bodies changing viewangle, and to maintain a perpendicular view of the area being viewed.

The camera's perspective view distortion is reduced by maintaining aperpendicular viewing angle of the posterior skin. The camera view angleis perpendicularly maintained to a viewed area, which allows the imageto be free of lens position and orientation distortion. As the cameramoves over the posterior and the camera angle view changes inrelationship to the posteriors curves. The computer moves the camera'sviewing angle to compensate for the posteriors curves.

The best camera angle may not always be perpendicular, such as, when theuser is eliminating, it is best that the camera is viewing theelimination at an angle instead of from perpendicular directly below theelimination. The computer adjust the angle for the best view.

Other angle measuring sensors, may include, an ultrasonic anglemeasuring device. The computer uses camera angle measuring software tomeasure the camera's viewing angle.

Other Sensors for Imaging the Posterior

Other sensors which can also be used for imaging the user's posterior,genitals, front and back elimination positions can be a, Epileptic Labsultrasonic 3D sensor Epileptic Labs software, made by the Epileptic LabsCompany of Sweden. The sensor software, is programmed into the computerOther three dimensional sensors could be used, such as, a Leap sensor, aKinect technology camera sensor, a Haptix gesture recognition chip, aPrimesense sensor, made by the Primesense Company of Israel, a Fluttergesture recognition system, a Infineon 3D Image Sensor IRS10x0C, andinfrared sensor, etc.

The user imaging device could be an ultrasonic sensors, an imagingsensor, an imaging device, an infrared camera, an air sonar sensor, anda laser imaging sensor LIDAR, etc.

Posterior Views Shown on the Display

The camera's view of the posterior 158 is shown on the display 108 incolor, and is viewable by the user. The display shows the camera's viewof the user's body in real time, as the video camera changes it's ofview of the user's posterior, and as the camera moves over theposterior. The display can show the images, in different viewingformats, such as, black and white, and infrared, etc.

The video of the user's elimination positions, can be downloaded andsaved to the computer storage, or a user's smart phone storage. The usercan view the saved images, and playback at a later time. The images canbe sent over the internet to health care providers, for their analysesof on the images for health care problems.

Keeping the Camera Lens Unobstructed

The computer detects when the lens becomes obstructed by water or othermaterial. When an obstruction is detected, the computer instructs air orwater to be streamed over the lens to remove the obstruction

Pressurised air is sprayed out of an air and water nozzle 118 adjacentto the lens, and distance sensor 152. The nozzle directs air over thecamera lens covering, and distance sensor, to blow water off the lens,distance sensor, and dry water that might be on the lens cover. The airis pressurised by an electric air pump in the bidet. The air isdelivered to the lens by an air hose from the pump, which travels insidethe wand 102 to the air spray nozzle. The air can be continuouslystreamed over the lens.

Water can be streamed out of the air and water nozzles, and can bedirected over the lens covering, too clean the lens covering 102. Wateris sprayed out of the same nozzles as the air nozzles. A valve allowseither water or air to flow through the hose. The value is controlled bythe computer. If matter is on the lenses covering, and isn't removed bythe air spray, or water rinse, the lens is cleaned by retracting thewand into the bidet and flushing the wand with water. After the lenscovering is cleaned, the wand extends to its last location.

Preventative Health

The camera 102 and display 108 allow users to visually become more awareof their bodies, by viewing their bodies on the display. This may helpthem to have a better understanding of their body, and may increase theenergy they expend in maintaining good health, which may increase theirbody's health. Preventative health, saves users from more serious healthconcerns in the future, by detecting health problems when they are smalland manageable, before they grow into more difficult to manage problems.The user can look for moles on the skin for signs of skin cancer,sexually transmitted diseases STDS, herpes outbreaks, hair grooming,yeast infections, and hemorrhoids. Women and men, can self-exam withouthaving to use a mirror, held in their hand to view their eliminationpositions. The user's anxiety is reduced, by giving them more knowledgeabout the health of their body. Instead of worrying about unidentifiedconditions of their body, they have a way to identify the health of thebody. Their anxiety is lessened by viewing area of their body, that theyhad difficulty in viewing on a regular basis, and they formally hadhoped were in good shape, now they know how the area looks.

The camera can identify with computer recognition software, blood inurine, and blood in fecal matter, as the urine or fecal matter iseliminated from the user's body. The software looks for blood coloredparticles in the fecal matter, and by viewing the color of the urineusing color analysis, and parasites by matching images of possibleparasites with a data base of stored images of parasites.

Alternate Embodiments

Automatically Viewing the User's Posterior Description

A camera is used to automatically view the user's posterior, and thehealth sensors are used to detect the use's health, as illustrated inFIG. 5. A flexible camera moving device 566 is connected to a computer506, software to automatically move the camera's view over the user'sposterior is programmed into the computer. The flexible hose cameramoving device, is attached to the side of the toilet bowel 524. Amid-air hand gesture recognition camera 556 is connected to thecomputer. A body elimination sensor 568 is attached to a bidet wand, andconnected to the computer. A user detection sensor 570 is attached to abidet wand, and connected to the computer. Menu icons 564 are shown onthe display 508.

Health Sensors Attached to the Wand

A skin cancer detecting laser 530 is connected to the tablet computer.The cancer cell detecting laser is used to detect possible skin cellcancers. The laser is made by the Birmingham City University and theUniversity of Central Lancashire, in the United Kingdom. The cancer celldetecting laser is connected, to the computer. The non-invasive system,detects malignant cells by the way in which laser light disperses fromthem.

A visual blood glucose measuring sensor 532 is connected to thecomputer. The visual blood sugar detecting sensor is made by the CnogaCompany. The device can determine a user's blood sugar level, fromviewing the user's skin's color. A user blood pressure sensor 534, isattached to the camera moving device, and connected to the computer. Avisual body temperature sensor 562 is connected to the computer, andattached to the moving device. The visual temperature sensor is made bythe Braun Company. A heart rate monitor, and blood oxygen saturationmonitor 192 is connected to the computer, is attached to the movingdevice. Other heath sensor can be attached to the moving device, andconnected to the computer, such as, a visual body temperature sensor,and an EKG sensor, heart rate monitor, etc. The camera 502 is attachedto the moving device

Automatically Viewing the User's Posterior Operation

The computer 506 can automatically view the posterior. The user can alsoactivate a pre-set route for the camera to follow on the user'sposterior, as illustrated in FIG. 5.

The user sits on the toilet seat. The user is detected by the userdetection sensor 570, which could be, an ultrasonic motion detector, thecamera, or an infrared user detection sensor. The sensor used to detecta user is continually activated. The light 226 activates and illuminatesthe user's elimination positions, as illustrated in FIG. 5. The cameraactivates, and it's view over moves the posterior. The view of theuser's posterior, genitalia and elimination positions is shown on thedisplay 508. The view is viewable by the user. As the computer moves thecamera viewing area, over the posterior. The display shows the changingview of the posterior in real time. The display shows the camera's viewof the user's posterior as the camera automatically moves over and abovethe user's posterior. The computer directs the moving devices movements.

The user can input activate a default camera viewing route, and have thecamera visually follow the route. For example the route could bedescribed as, view front and back elimination positions. The user cantouch activate the front and back positions route, by touching a screenicon 564, illustrated in FIG. 5. When the front and back positions routeis activated, the camera locates the elimination positions, and follow afront and back positions viewing route. The computer uses genital andback elimination position recognition software to identify the user'sfront and back elimination positions location.

The computer automatically analyzes the posterior images to detectpossible health concerns. If the user's attention to their body isneeded, the computer alerts the user, by using the display to show ahealth alert message. The computer displays a report of its visualanalysis of the user's posterior.

Health Sensors

The skin cancer detecting laser 530 is moved over the posteriorsearching for possible skin cancer. The laser 530 moves over the user'sbody, and views the user's skin. The laser beam is targeted on skincells. The cells interact with the beam, and emit a signature spectrum.The patterns are read by a synthesizer which converts the signal intosound, relayed via a speaker. The unique sound is heard if possiblecancerous skin cells are detected. The sound for detected cancer cellscan be understood by the user, or analyzed by the computer to detectpossible cancer cells. The user or computer can identify the uniquelight patterns and sound thrown off from various forms of cancer. Thelaser can also be moved to skin objects that the camera finds areoutside of the normal skin profile, to analyses the object for possibleskin cancer. The camera finds visual object on the posterior, which areoutside of a preprogrammed visual normal skin profile. The computer thenmoves the skin cancer sensor, to view the object to analyse the objectfor possible skin cancer.

The blood glucose measuring sensor 532 contacts the user's skin, andtake a blood glucose measurement. The user blood pressure sensor 534,contacts the user's skin, and take a blood pressure measurement. Thevisual temperature sensor 562, views the user's body and detects theuser's body temperature. The heart rate monitor, and blood oxygensaturation monitor (not shown) is moved to contact the skin, andmeasures the user's heart rate and oxygen saturation level.

The health sensors are cleaned after each time they are used. Thesensors are retracted into the bidet and are washed and sterilized. Thesensors are washed after each use by users.

Recording Posterior Images and Health Data

The user touch activates a video record icon on the display 508. Thevideo stream being shown on the display is recorded by the computer. Theuser can play back the recorded video, at another time.

The user activates the automatic computer viewing of the user frontelimination position. The computer automatically moves the camera, andviews and displays different moving camera views of the user's frontposition.

The user can change the pre-set camera distance from the user as travelsits viewing route, for example the user may want a close up view of onearea and a longer distance view of another viewing area.

The body elimination sensor 568 visually detects if the user iseliminating from their front or back elimination position. The sensorviews the elimination positions. If the body elimination detectionsensor senses the user is eliminating, the computer moves the movingdevice to the side of the toilet bowel. The computer waits for 45seconds after elimination has been detected stopping, and restarts thebody scan at the last location that was being viewed when the scanstopped.

The flexible hose camera moving device 566, moves the camera and healthsensor to any location on the user's legs, and posterior, inside thetoilet bowel.

The user uses mid-air hand gestures within view and 30 cm of the mid-airhand gesture camera 556, to input in to the computer. The user canchoose from a menu of different shown input icons on the display.

Additional Alternate Embodiments

Two Camera Moving Devices Health Testing a User's Back Description

Two cameras each attached to separate two camera moving devices, twosensor moving devices, and are located at the rear of a toilet. The reartoilet location is within the camera's viewing distance of the user'sback, as shown if FIG. 7. A motor controller supply power to the healthsensors. The motor controller is connected to a computer.

For brevity when the camera 702 is used to look for possible skincancer, its implied skin cancer and other health ailments are lookedfor, by the camera when viewing the user's body. The other healthailments are described in more detail in this embodiment.

Health Sensors

Body contacting sensors move to contact the user body parallel to thebody, to enable the sensor to be flush with the user's body, as shown inFIG. 8. A skin cancer detecting light 730 is connected to a tabletcomputer 706, a motor controller, and is attached to the camera movingdevice, as shown if FIGS. 8 and 9. The skin cancer detecting light,called Verisante Aura, is made by the Verisante Technology Company, ofCanada, and detects melanoma, basel, and squamous versions of thedisease.

A blood glucose measuring laser sensor 732 is connected to the computer,and the motor controller. The blood glucose sensor is made by thePrinceton University Researches.

A user blood pressure sensor 734, is attached to the moving device, andconnected to the computer, and motor controller. A Raman spectroscopydevice 722, is attached to the moving device, and connected to thecomputer. A malaria detector 738 made by Rice University in Houston,Tex., is connected to the computer, the motor controller, and attachedto the moving device. A visual skin temperature sensor 762, is connectedto the computer, the motor controller, and attached to the movingdevice. A light 728 is connected to the computer, and is used forilluminating the camera's view of the user's back.

The Computer

The computer in programmed, with laser blood glucose analyzing software,laser cancer cell detecting software, EKG software, heart rate and bloodoxygen monitor software, skin temperature detecting software, bloodpressure machine software, visual body diagnosis, visual skin cancerdiagnosis, and camera software, etc.

The computer is programmed with facial recognition software. Genitalrecognition software can also be programmed into the computer.

The computer is connected to a second display which is viewable byhealth care providers, the second display (not shown) is located outsideof the toilet area, in an area used by the health care providers. Thecomputer is connected to the internet.

The user health testing device sensors may be located at the user'sresidence, and the care providers remote health test display could belocated in a clinic. The user could be in a hospital, or residentialcare facility, and the care providers could be located on the samepremise. The health test and remote display, can be connected to eachother over the internet, or a local area network.

Possible Visual Diagnosis of Health Ailments

VisualDx software made by the VisualDx Company is programmed into thecomputer. The computer is programmed with visual diagnostic software,for diagnosing the camera's view of the user's body, for visual healthconditions, such as, Rash, psoriasis, gangrene, chicken pox, measles,Dermatitis, Cold Sores, Hives, Cysts and Skin Lumps, Epidermoid andSebaceous Cysts, Poison Ivy, Oak, and Sumac, Varicose Veins and SpiderVeins, Vitiligo, Lice and Scabies, Bruises, Hives, Blisters, limedisease, shingles, Acne, Eczema, Varicella-Zoster Virus Infection,Herpes Zoster, Herpetic Whitlow, Molluscum Contagiosum, ErythemaInfectiosum, Plantar Warts, Warts, Rubella, Erythema Multiforme Minor,Hand-Foot-and-Mouth Disease, Verruca Plana, Verruca Vulgaris, RockyMountain Spotted Fever, Acne Vulgaris Nodulocystic, HidradenitisSuppurativa, Furuncle (S. Aureus), Rosacea, Folliculitis, Bartonellosis,Folliculitis, Bartonellosis, Impetigo, Transient Neonatal PustularMelanosis, Miliaria Crystallina, Miliaria Rubra, Scarlet Fever, PittedKeratolysis, Lepromatous Leprosy, Leishmaniasis, Ringworm, Athlete'sFoot, Fungal Nai, Tinea Versicolor, Sporotrichosis, Candidiasis(Moniliasis), Yeast Infections, Histoplasmosis, Bedbug Bites, LymeDisease, Rickettsialpox (Tâche Noire), Bee, Wasp, Hornet, Yellow JacketStings, Black Widow Spider Bites, Brown Recluse Spider Bites, DermatitisFrom Common Carpet Beetle, Fire Ant Bites, Flea Bites, Body Lice,Jellyfish Envenomation, Contact with Sea Urchin, Syringomas, Lipoma,Desmoplastic Melanoma, Cutaneous Horns, Epidermal Inclusion Cyst (EIC),Skin Tags, Moles, Dermatofibroma, Angiofibroma (Facial), DysplasticNevus, Halo Nevus, Congenital Nevomelanocytic Nevus, Dysplastic Nevi(Atypical Moles), Compound Nevus, Spitz Nevus, Epidermal Nevus,Neurofibromatosis (Café au lait), Neurofibromatosis (Crowe's Sign),Neurofibromatosis (Neurofibromas, Sunburn, Solar Keratosis, Poikilodermaof Civatte (POC), Dermatosis Papulosa Nigra (DPN), Addison's Disease,Amiodarone, Melasma, Jaundice, Freckles, Lentigines, Multiple LentiginesSyndrome (Back), Psoriasis Vulgaris Erythematous, Pustular Psoriasis,Erythrodermic Psoriasis, Psoriatic Arthritis, Lichen Planus,Xanthomatosis, Erythema Multiforme, Palmar Pustulosis, Darier's Disease,Poison Ivy, Fixed Drug Eruption, Gianetti-Crosti Syndrome, Iododerma andBromoderma, Lichen Simplex Chronicus, Sweet's Syndrome, VerrucousPapules, Morphea, Port-Wine Stain, Systemic Lupus Erythematosus, LivedoReticularis, Lymphedema, Hemangioma, Lymphangioma, Dermatomyositis,Polyarteritis Nodosa, Erythema Nodosum, Urticaria, AngiokeratomaCircumscriptum, Ataxia-telangiectasia, Cutis Marmorata TelangiectaticaCongenita, Henoch-Schonlein Purpura, Kawasaki's Disease,Klippel-Trenaunay-Weber Syndrome, Meningococcemia, Pyogenic Granuloma,Spider Angioma, Necrobiosis Lipoidica Diabeticorum, VascularMalformations, Cherry Angioma, Peripheral Vascular Disease, anemia,(Fungal Nail Infection), Glaucoma, Cataracts, Age-Related MacularDegeneration, Retinal Detachment, Bacterial Conjunctivitis (Pink Eye),Uveitis, Eye Allergies, Sty (Stye), Keratoconus, Blepharitis, CornealUlcer, Diabetic Retinopathy, Strabismus (Crossed Eyes), Floaters,Farsightedness, Nearsightedness, Astigmatism, Genital Warts (HPV), Crabs(Pubic Lice), The Clap (Gonorrhea), Syphilis, Chlamydia, Herpes SimplexVirus Type 1, Herpes Simplex Virus Type 2, Hepatitis B, Chancroid, LGV(Lymphogranuloma Venereum), Canker Sore, and Strep Throat, etc.

Block Diagram

FIG. 22 illustrates a block diagram of some of the hardware componentsconnections of the device, cameras and health sensors (2202), display(2204), computer and motor controller (2206), camera moving device(2208), light (2210), user input device (2212), camera viewing anglemeasuring device (2214), camera and sensors distance from user measuringdevice (2216).

Two Camera Moving Devices Health Testing a User's Back Operation

The user is able to view their back and sides on the display, whileoccupying the toilet seat. The user can choose to manually move thecamera to view their back, or have the computer automatically move thecamera to view their back. The user can choose either a manual orautomatic moving of health sensors from options, on the menu shown onthe display.

Visual Computer Diagnosis of the Body

The camera's 702 views the user's body, as shown in FIG. 7. The computerlooks for visual objects on the body which are outside of apre-programmed default healthy body skin view. When the computer findsdifferent object's on the body, it searches its data bases to identifythe different object. The computer searches for matches of the views ofthe object, with visual body problems stored in a computer data base ofbody object problems, such as, skin cancer and other ailments. On theinternet the computer also searches a data base of visual body problems.The computer uses body disease recognition software to identify bodyobject problems. The visual image of the body object is turned into atwo 2D or 3D mathematical algorithm. The body 2D or 3D mathematicalalgorithm, is compared a to data base 2D or 3D mathematical algorithm inthe ailments data bases, to find a match between the algorithms. When amatch is found the body algorithm is identified.

The VisualDx software aids in the identification of dermatologic,infectious, genetic, metabolic, and nutritional and occupationaldiseases, benign and malignant growths, drug-induced conditions, andother injuries. The VisualDx system allows the computer to search bydiagnosis, build a patient-specific differential, or look updrug-induced adverse reactions by medication.

The computer can also connect to visual diagnosis websites on theinternet, which have visual data bases on the cloud, to automaticallyvisually diagnosis the viewed body. The cloud based computers diagnosis,visual images of the user's body, which are sent to them.

Sensors and the video camera 702 move over the user's back, as show inFIGS. 7 and 8. The sensors view and or contact skin on the user's back.The sensors detect and analyses different health measurements of theuser. The sensors and camera detect possible health concerns. The tabletcomputer 706 acts as a remote control display, which visually shows thesensor measurements, and possible health concerns.

Display Operation

The user's uses their input into eye tracking sensor, to direct themovement of camera moving device and the camera. The display shows thecamera's view of the user back. The cursor is shown in the center of thecamera's view. The camera's center of view the camera follows thecursor. The moving device moves the camera to keep the camera's viewcentered on the shown cursor. The user eye inputs a location on thedisplay of the shown back, away from the center of the camera view, themoving device 704 will move its center view to the location. When thecamera reaches the cursor's off center location the camera's movementwill stop, this location will be centered in the display.

The cursor can be deactivated or move out of the center of the screen tosee what's shown underneath the cursor, or in the center of the screen.The cursor can be shaped like a circle, and the circle can be enlargedto have a better view of the camera's center view. The cursor's shapecan be different shapes.

The user moves the camera over their back, by eye inputting the locationand a path shown on the user's body that they want the camera to viewand follow. The camera's view is shown on the display as it moves overthe back, and shows the view when stationary. The camera views the usersback, and displays views of the user's back as the camera's view movesover the user's back.

The camera will follow a line or path drawn on the user's body, viewingand showing the view as the camera follows the line. The user canactivate the path following of the moving device, and draw theelectronic line on their shown body. The user uses their eye movements,to draw the line with the cursor. A 3D Hololens headset display can alsobe connected to the computer, and used by the user, to input in thecomputer.

Heath Care Providers Remotely Viewing

Health tests and camera viewing of the user can be performed by heathcare providers, remotely at a location outside of the toilet area. Theproviders view a remote display which shows the same information asshown on the user's display. The providers can perform health tests onthe user. This enable the providers to preform health tests on users whomay be health challenged. The providers can also monitor health testscarried out by the user. The remote display shows the user's heathinformation, and the camera's view of the user.

Health Test Sensors

The user sits on the toilet seat. The user views a menu of health testson the display screen. The user's eye movements activate the icon thatis associated with the health test they want to activate. The healthtest is activated. A health sensor associated to the heath test, teststhe user's body. The heath test information is sent from the healthsensor, and received by the computer. The computer analyses the bodyinformation, with health test information analyzing software. Thecomputer finishes the analysis of the information. The analyzed resultsare displayed on the display. The user views the health test results. Ifthe results have possible health concerns, the user may discuss theresults, with health care professionals. The computer can automaticallysend, over an internet, health problem data to health care providers foranalyses.

The user can activate more than one health test at a time, and view theresults. The user can pre-set a group of health test that they can beuser activated. The computer can automatically run pre-set health tests,when a user is detected, sitting on the toilet seat, and display thetest results.

The camera moving device moves the sensors to contact the user's skin.The cancer detecting laser analyses the user's body back and side areas.The camera moving device 704 moves the cancer cell detecting light 730to contact the user's skin.

The glucose sensor 732, is positioned to view the user's back skin asthey sit on the seat. The user's blood sugar is measured by directingthe specialized laser at the user's skin. The laser passes through theskin cells, without causing damage, and is partially absorbed by thesugar molecules in the patient's body. The device 104 uses the amount oflaser light absorption, to measure the level of blood sugar in theuser's blood. The device uses a ‘quantum cascade laser’ to producemid-infrared light. The system uses infrared laser light, which is justbeyond the spectrum light visible to the human eye

The Raman spectroscopy device 722, optically views the user's skin tobiochemically analyze the skin. The blood pressure sensor 734 measures auser's blood pressure by contact with their skin. The moving devicepresses the blood pressures sensors against the user's skin until thetest is complete, then withdraws the sensor from the user's skin. Theblood pressure sensor contacts a user's skin when they sit on the toiletseat. The blood pressure sensor detects the user's blood pressure whilethey sit on the toilet seat.

The Malaria detector is moved by the moving device to a vein in theuser's wrist. The malaria detector is pressed against the user's vein.The vein is visually detected by the user or computer.

The Malaria detector 738 works by pulsing energy into a vein in aperson's wrist or earlobe. The laser's wavelength doesn't harm humantissue, but is absorbed by hemozoin waste crystals that are produced bythe malaria parasite Plasmodium falciparum when it feeds on blood. Whenthe crystals absorb this energy, they warm the surrounding blood plasma,making it bubble. An oscilloscope placed on the skin alongside the lasersenses these nanoscale bubbles when they start popping, detectingmalaria infections in only 20 seconds.

The skin temperature sensor 762 is used to measure skin temperature. Thetemperature sensor views the user's skin, when moved in range by thecamera moving device. The temperature can be used to detect fever andhigh fever temperature.

Display

The display is viewable by the user. The display screen is in view ofthe user. The display screen displays user health information sent tothe display by the computer. The computer analyzes the user's healthdata. The computer updates the user on the user's health condition, anddetected health problems. The computer alters the user to blood glucoselevel, blood pressure, etc. The computer alters the user, to their bloodsugar level or other health concerns, by displaying, a visual healthmessage on the display screen that the user can view

Facial recognition software, is used with a camera on the tablet. Thefacial recognition, is used to identify the user. The camera images theuser's face, as the user positions the camera tablet to view their face.The facial image, is compared, by the computer, with stored images ofusers, to find a match with the stored images. When a match with theviewed user image, and the stored image is found, the viewed user isidentified. The identified user is associated with their stored profile.The stored profile contains health information about the user. Thehealth information can be inputted by the user, and informationcollected from health sensor tests.

The identified user is associated with the user's preprogrammed userprofile, containing, the user's age, gender, and height, etc. The user'sprofile is used to store collected health data, associated to the user.The stored data, can be used to detect changes in the data, which are ofa health interest.

Camera Moving Device Moving Health Test Sensors and Camera

The two camera moving devices operate simultaneously, performing twohealth test at the same time. The moving devices 704 extends outward,from the back moving plane 704. The camera distance sensor detects thecamera's distance to the user. If the user moves forward or back wardthe moving device moves with the user, and will extend or retractsynchronously with the user's movements. If the user moves faster thanthe moving device, and the user contacts the moving device, the deviceis flexible, and exerts minimal contact pressure on the user. The movingdevice's flexibility avoids hard contact with the user should the usermove backward expectantly.

The cancer detecting light sensor face 730 with the sensor can tilt upand down, and left and right to maintain a perpendicular view of theuser's back. The tilting allow the sensors face to contact the back in aparallel position to the back. The computer controls the sensormovements, to a desired location on the back. The user can controls thesensor movements, to a desired location on the back, by eye movementinputting into the tablet remote control.

The sensor face 730 with sensors can extended to the user's back, orretract away from the back. The sensors can extend out ward from theface of the sensor moving device, and retract into the face. Theextension and retraction of sensors allows sensors to contact the user'sskin more efficiently, and or to possibly have a better view of theuser's skin.

The sensor and moving device moves on the curved moving plane. Themoving device is moved by bands which are connected to the moving devicewhich moves the device on the x and y axis of the plane. A motor powersthe moving device which moves bands attached to the moving device. Thebands move up and down, and right and left which moves the camera devicein those directions. The computer instructs the moving device, to movethe camera to locations on the moving device plane.

The camera and sensors, moves on the plane parallel to a user's backwhile perpendicular or at a 90 degree viewing angle of the user's back,as shown in FIG. 7. The camera can move to any location on the curvedplane, to view the back. The camera moving device is connected to thecomputer.

Laser Used to Detect the Camera's Angle from the Body

The camera adjusts the cameras viewing angle as it moves over the back,to maintain a perpendicular viewing angle of a back area. The camera'sviewing angle changes as it view moves over the changing angles of theusers back. The laser angle measuring device, measures the camerasviewing angle to an area on the back. The computer moves the camerasangle to maintain a perpendicular view of the area. The computer isprogrammed with software to detect the lasers angle. The camera andcomputer programmed with software that allows the computer to measurethe distance to the user's back using the camera view.

The laser distance measuring device 754, and angle measuring device 754is used to measure the sensors face in relation to the user's back, andthe angle of the face to the user's back. The laser device is connectedto the computer. The software allows the camera to measure its viewingangle to the back.

The camera and laser, senses angle and distance information, whichallows the computer to keep the face, at the best angle and bestdistance to the users back, for the sensor being used. If the usermoves, the computer adjusts the cameras view to the new back position.

Laser Used to Detect the Camera's Distance from the Body

A laser ranger finder 754 distance measuring device is used to measurethe camera's distance to the user's back. The laser also measures thecameras viewing angle 754, in relationship to the viewed area of thebody. The same laser is used for measuring distance and camera viewingangle.

The laser distance measuring software is used with the laser, tomaintain an optimal camera viewing distance from the back, while thecamera is moving along the posterior, and while stationary at positionson the posterior. The camera can refocus if the camera's viewingdistance increases or decreases from the skin.

The camera's viewing distance changes, due to the curves of the back,and the backs incline while the user is sitting on the seat. The movingdevice keeps the cameras distance from the back the same, as it movesover the back. The camera's focus and zoom will change as the distancefrom the back changes maintaining a clear view of the back.

The computer zooms the camera's lens in and out, to maintain a constantsized visual viewing area, of the viewed back area, as the viewing areamoves over the back The zooming allows the viewed details on the user'sback stay the same size on the display, as the back's distance from thecamera changes, as the camera views different areas of the back.

An ultrasonic measuring sensor 752 is also used to detect the camerasdistance from the user's body, and is connected to the computer, andattached to the moving device.

Software Flowchart of Operation

FIG. 23 shows software steps of the operation of the health sensors,user detected on toilet seat (2302), computer to preforms one or morehealth tests when user detected, such as, skin cancer, blood pressure,blood glucose, temperature, etc. (2304), computer directs camera movingdevice to move camera, and health sensors to a location or locations onthe user's posterior (2306), camera, and sensors move to location onposterior (2308), health test activated (2310), health test preformed(2312), health test data results are outside of normal range (2314),health data is analysed (2315), abnormal health test data is sent overinternet to health care providers for diagnosis (2316), computer, andcloud data base analyses abnormal data for possible health diagnosis(2318), analysed health test data and or diagnosis is shown on display(2320), data and or diagnosis is saved to storage (2322), a plurality ofstored data tests are analysed for negative health changes over time(2324), negative data changes detected (2326), negative changes shown ondisplay (2328).

A Health Sensing Toilet Seat Description

Health sensors are positioned on a toilet seat. The sensors contact auser's body when they are on the toilet seat, as shown in FIG. 10. Thetoilet seat 1026 top is a clear glass window.

Health Sensors

A cancer cell detecting laser 1030 is, is attached to the camera themoving device 1004, and connected to a computer 1006. Anelectrocardiogram (ECG or EKG) monitor 1022, is attached to the toiletseat, and connected to the computer. A blood pressure sensor 1034 isattached to the top of the toilet seat, and connected to the computer. Askin temperature sensor 1062 is, attached to the top of the toilet seat,and connected to the computer seat.

A blood glucose sensor detecting laser 1032, is attached to the toiletseat 1026, and connected to the computer 1006. The laser blood sugarsensor is incorporated into the toilet seat.

A Cambord Pico camera 1002 is attached to a camera the moving device,and connects to the computer. Intel real sense software attached to thecamera moving device. The computer is connected to a motor controller(not shown). The motor controller is connected, to the health sensorsand the health cameras. The computer is connected, to the healthsensors.

The toilet seat 102 has two weight scales, one to measure the user'sweight on the toilet seat. The toilet seat scale has four weight sensors1072 that support the toilet seat when it in the occupied position. Thefour sensors 1072 measure the weight of the user on the toilet seat. Asecond foot weight scale 1070 is connected to a foot rest scale 1070,and measures the weight of the user's feet on the foot rest scale asshown in FIG. 10. The two seat and foot scales are connected to thecomputer. The computer combines the seat weight measurement and the feetweight measurement. The combined weights result in the user's full bodyweight.

A Kinect camera 1074 is connected to the computer, and can view theuser's skin for signs of skin cancer. Other cameras can connected to thecomputer.

Electrical impedance sensors 1076, are attached to the top of the toiletseat, and connected to the computer. The sensor 1076 sends a harmlesstiny electrical current from one thigh to the other thigh. Theelectrical current measures electrical impedance of the electricalcurrent through the user's body.

A heart rate monitor 1038, and blood oxygen saturation monitor isattached to the toilet seat. The monitor's sensor is exposed on the topof the toilet seat surface, to the user's skin.

The computer is a tablet computer. The computer connects to and has anIntel realsense camera. The computer is programmed with Intel realsensesoftware 1302.

A Health Sensing Toilet Seat Operation

The toilet seat with heath sensors, uses passive interaction with a userto diagnosis their body's health. The health sensing toilet seat,diagnosis the user's health, with cameras and sensors, while they aresitting on the toilet seat, as shown in FIG. 10.

The user sits on the toilet seat 1026. A sensor detects the user on thetoilet seat. The detection of the user, activates the sensors andcamera. Health tests are done automatically by sensors and cameras.Health test can also can be set, to be activated manually by the user.

The user views a menu of health tests, on the display screen. The usertouch freely inputs into the computer, by mid-air hand gesturing infront of the mid-air hand gesture camera 1056. The input controls acursor, etc., shown on the display. The user's mid-air touch activatesan icon that is associated with the health test they want to activate.The health test is activated, and tests the user's body. The heathinformation is received by the computer. The computer analyses thehealth information, with health test information analyzing software. Thecomputer finishes the analyzing the information. The analyzed results,are displayed on the display. The user views the health test results. Ifthe results have possible health concerns, the user may discuss theresults, with health care professionals.

The camera has a light 1028 the illuminates the posterior, when thecamera is viewing the posterior. The toilet seat window is clear whichallows the camera, sensors and lasers, to view the skin that contactsthe toilet seat top.

The health sensors and the camera 1002 move under the user's posterior,inside the clear toilet seat, as show in FIG. 10. The camera movesinside the toilet seat, and views the user's skin pressed against awindow on the top of the seat. The top of the seat is clear glass. Thecamera detects the angle of the viewing glass to the camera lenses. Thecomputer uses the angle information to move the camera viewing angle, tokeep the viewing angle perpendicular, directly on the user's skin. Thetoilet seat is attached to a toilet.

The moving device moves the camera 1002 and skin cancer detecting laser1030, move inside the toilet seat. The plane that the camera and lasermove on is parallel, to the toilet set curvature, which keeps the cameraand laser view of the user's skin perpendicular.

Sensors also contact the posterior and or leg skin, when the user sitson top of the sensors on the seat. A remote control computer display1008 visually shows the sensor measurements, a view of the posterior,and possible health concerns.

The laser blood sugar sensor contacts the user's skin. The glucosesensor 1032, is positioned to view the user's skin as they sit on theseat, and their skin contacts window, and allows the sensor laser beamto contract the user's skin. The body temperature sensor 1062 contactsthe user's skin, and is used to measure skin temperature. Thetemperature can be used to detect fever and high fever temperature. Afemale user's temperature can be used to determine the time that theyare ovulating.

The user's weight is measured by the toilet weight scales 1070, 1072.The user's weight is displayed 1078 on the display 1008. The user cansee their weight on the display. The users displayed weight may bebeneficial in aiding weight loss in the user. Seeing their weight, on aregular basis may aid the user in improving the management of theirweight. The scales can measure the user's weight, before and after theyeliminate, to calculate to weight of their elimination. The scale canmeasure the user's fecal output. The weight of the elimination can bedisplayed. The amount of the user's elimination may aide in monitoringthe user's health.

The toilet scales remove the need for the user to weigh themselves whilestanding on a separate scale. The seat scale eliminates the possibilityof a user falling off of a standing scale while weighting themselves.For users with body weight issues the regular weight information, mayaid in increasing their awareness of the body.

A Kinect camera 1074 is located on the toilet, and can visually monitora user skin for signs of skin cancer. The user's body is viewed for skincancer and other ailments, as they move around the bathroom. A nude userin the bath room, or entering the shower, may have a full body skincancer view or scan by the Kinect. The computer keeps a record, of theof the user's visual body scans. The scans are be analyzed for changesin coloration, or growth of the skin, etc. Other cameras can be used toview the user.

The user's fat mass is measured by the electrical body impedance device1076. By analysing the user's body electrical impedance the computer caninfer body fat percentage of the user, etc. The Seca impedance device1076 breaks down weight into several compartments which are highlyrelevant in medical care, namely, fat mass and fat-free mass, total bodywater, extracellular water, skeletal muscle mass and lean soft tissue.The user inputs their body height, age, and gender, in to the computertest.

The heart rate, and blood oxygen sensor 1038 measure the user's heartrate, and blood oxygen saturation level. The heart monitor could also bethe Kinect sensor 1074 which measure the user's heart rate by viewingthe user's body. A visual heart rate monitor can be used which detectsthe movement of the head each time the heart contracts and expands. Aheart rate monitor detecting raw pulse waveform, can also be used todetect irregular heart rate, and provide an early warning of heartproblems.

The electrocardiogram sensor 1022 measure the user's EKG. Theelectrocardiogram (ECG or EKG) is a test that checks how your heart isfunctioning by measuring the electrical activity of the heart. The bloodpressure sensor 1034, contacts the user's body when they are on theseat, and measures the user's blood pressure.

The sensor measures the user's EKG. The electrocardiogram (ECG or EKG)sensor 722 checks how the user's heart is functioning by measuring theelectrical activity of the heart. With each heartbeat, an electricalimpulse (or wave) travels through your heart. This wave causes themuscle to squeeze and pump blood from the heart. An ECG measures andrecords the electrical activity that passes through the heart. A healthcare provider can determine if this electrical activity is normal orirregular. An ECG may be recommended if user is experiencing arrhythmia,chest pain, or palpitations and an abnormal ECG result can be a signalof a number of different heart conditions

The EKG sensor detects abnormal heart rhythms that may have caused bloodclots to form. Detectable heart problems, include a recent or ongoingheart attack, abnormal heart rhythms (arrhythmias), coronary arteryblockage, areas of damaged heart muscle (from a prior heart attack),enlargement of the heart, and inflammation of the sac surrounding theheart (pericarditis). Detect non-heart conditions such as electrolyteimbalances and lung diseases. Monitor recovery from a heart attack,progression of heart disease, or the effectiveness of certain heartmedications or a pacemaker.

Full Viewing and Health Sensing of a User's Body Description

Health sensors and cameras are used to view the user, and sense theuser's health, as shown in FIG. 11. A camera moving device 1104, isattached to a circular track 1108 on a floor, and a second camera movingdevice 1106 is attached to a circular track 1110 on a ceiling, locatedaround a user when they are sitting on a toilet.

Eye identification software to find the eye's location is programmed into the computer. Eye examination software is programmed into a computer1112. Eye disease recognition software is programmed in to the computer.The tablet computer is viewable by the user. Facial and mouthrecognition software is programmed into the computer. Visual oral mouthhealth sensing software is programmed into the computer.

Full Viewing and Health Sensing of a User's Body Operation

The moving device 1104, moves on a circular track on a floor 1108,around the user when they are sitting on a toilet, as shown in FIG. 11.The second moving device 1106, moves on a circular track 1110 on aceiling, around the user when they are sitting on the toilet. Thecircular track allow the camera and camera, and health sensors tocontact the user's body from 360 degrees.

For safety the moving device stops and turns off if it contacts, theuser or meets any resistance while moving. The user can keep their feetoff of the track while the camera is viewing them.

The user preforms the eye test manually by activating the eye test on adisplayed menu. The user can then manually move the camera to their eyelocation, or have the computer automatically move the camera to theuser's eyes. The computer uses eye identifying software to detect thelocation of the user's eyes. When the eyes are located the computer movethe camera to within 15 cm to view the user's eyes. The camera can movecloser to the user's eye if needed. A displayed sign asks the user tolook into the camera's lens. The sign text is also audibly broach castby the computer, buy using text to speech software. The eye test isperformed when the computer detects the user looking into the cameralens. The eye results are displayed on the display. The computersearches for matches of the views of the eyes, with visual eye problemsstored in a computer data base of eye problems. The computer 1112 useseye disease recognition software to identify eye problems.

The ceiling camera's extends from ceiling. The camera views the user'seyes and checks for Glaucoma, Cataracts, Age-Related MacularDegeneration, Retinal Detachment, Bacterial Conjunctivitis (Pink Eye),Uveitis, Eye Allergies, Sty (Stye), Keratoconus, Blepharitis, CornealUlcer, Diabetic Retinopathy, Strabismus (Crossed Eyes), Floaters,Farsightedness, Nearsightedness, and Astigmatism.

The camera can view the inside of the user's mouth. The computer audibleasks the user to open their mouth. The user opens their mouth, and thecameras views the inside of their mouth. The light illuminates theinside of the mouth. Health ailments are searched for inside mouth, suchas, sore throat, oral cancer, and tongue diseases, etc.

Back Viewing Stationary Cameras on the Bottom of a Toilet Seat LidDescription

Cameras 1902 are attached to the bottom of a toilet seat lid 1904, shownin FIG. 19. The lid is expandable. The cameras are connected to a tabletcomputer. The computer is inside of a protective clear housing (notshown). The computer has a display. The display is viewable buy a user.The tablet has a microphone 1908.

Video stitching software is programmed into the computer. Visual skincancer melanoma, automatic diagnosis detecting software is programmedinto the computer. Skin diagnosis software is programmed in to thecomputer, for diagnosing, of health conditions, such as, pressure sores,bed sores, herpes, psoriasis, and skin cancer, etc.

The computer is programmed with a computer operating software. Thecomputer is programmed with a camera operating software. Light emittingdiodes LED lights 1910 are attached to the bottom of lid. Skin cancerilluminating lights (not shown), are attached to the bottom of a toiletseat lid.

The computer is programmed with a user health alert software, foralerting the user of health problems. The computer is connected to aninternet. The computer is programmed with a software for communicatingwith health care providers over the internet about health problemsviewed by the cameras, and diagnosed by the user, and or computer.

A software for creating a user profile is programmed into the computer1906. A software for associating the user with imaging data, and heathdiagnosis data is programmed into the computer, for analysing anddetecting positive and negative health changes of the user.

The input device is the microphone. User voice recognition is used forinputting voice commands into the computer. Voice recognition softwareis programmed into the computer. The input allows the user to operatethe devices, display view, cameras without touching the display. Thetouch free user input device is connected to the computer.

Cameras can also be attached to the back of a toilet, or the front of atoilet tank. When the lid is moved to the upright position, the lidscameras are flush with the cameras on the back of the toilet. The lid isheld in a horizontal position by a magnet in the lid and a magnet inback of the toilet.

Cameras can also be attached to the front of a toilet bowel, to view theback of the user's legs. Cameras can be inside a clear toilet seat, toview the legs and posterior of the user. Cameras can be attached to aceiling to view the lap, shoulders, and head of the user. Cameras can beattached to the inside of a toilet bowel, to view the posterior of theuser.

Back Viewing Stationary Cameras on the Bottom of a Toilet Seat LidOperation

The cameras 1902 view a user's back, when they are seated on a toiletseat, shown in FIG. 19. The view of the user's body is shown on thedisplay. The video stitching software is used to combine the differentcamera's view of the user's body. The software stitches the togetherdifferent views, to create one continuous view of the body. The body canbe viewed from different perspectives on the screen, with aperpendicular view of a viewed area of the body is a default view of theuser. The views perspective can be changed by the user.

The computer 1906 receives the views of the user's and analyses the userimages for problems, such as, skin cancer, and other ailments. If aproblem is found on the user's body, an alert is shown on the display,with the problem describe in writing, a picture of the problem isdisplayed. An audio alert vocalizes the displayed writing of theproblem, using a speaker, and using text to voice translation software.

When the lid is lifted into the up position, the lid expands verticallyto 1.6 times its size when it is in a horizontal position. The expansionof the lid allows the camera to view the users complete back.

Full Body Viewing of a User on a Toilet by Stationary CamerasDescription

High definition cameras 1202 are attached to a camera attaching device1292, as shown in FIG. 12. The cameras are connected to a computer.Cameras can also be used inside the toilet bowel to view the user'sposterior. Cameras can be inside the toilet seat to view the user's legsand posterior contacting and near the toilet seat. The back of theuser's legs can be viewed to by cameras attached to the front of thetoilet. The front of the user's body is viewed by cameras placed infront of the user's facing the user, viewing the user's front. Theuser's lap and top of their body is viewed by cameras on a ceiling (notshown) above the user.

3D Imaging Lasers

Four three dimensional 3D Lasers 1290 are attached to the cameraattaching device, surrounding the users body. The lasers are connectedto the computer. The computer is programmed with a laser 3D user imagecreating software.

The lasers are made by the Human Solutions and TC companies. Polyworksbody imaging software is programmed into the computer. Kinect bodyscanners made by the Microsoft company, or body scanners made by theArtec company can also be used to scan the user's body. The user's eyesare safe in the presence of the lasers. The Lasers for 3d body imaging,are used weight loss detecting and viewing the body in 3D.

Full Body Viewing of a User on a Toilet by Stationary Cameras Operation

The cameras 1202 view the user's skin on their body, when they areseated on the toilet seat, as shown in FIG. 12. The computer receivesthe views of the user's and analyses the user images for problems, suchas, skin cancer. If a problem is found an alert is shown on the display1208, with the problem describe in writing, a picture of the problem isdisplayed, and the alert is audio specking the problem, with text tovoice translation and broadcast of the shown text.

3D Imaging Lasers

The lasers and cameras 3D image the user while they are sitting on thetoilet. The lasers and cameras view of the user's body is sent to thecomputer. From the received views the computer creates a 3D view of theuser's body. The view is stored in the computer for comparison to other3D views of the user's body. The comparison of the views is used tocheck for changes in shape of the user, such as weight gain or weightloss.

Standing Full Body Scan by Stationary Cameras. Description

An area for a user to stand in, is located next to walls of cameras1302, as shown in FIG. 13. A computer (not shown) is connected to thecameras. The cameras 1302 are connected to camera tilting devices. Bodyimaging lasers 1380 are connected to the computer.

A three dimensional 3D HoloLens headset 1306, made by the Microsoftcompany, is connected to a computer. The headset could also be an OculusRift virtual reality headset, made by the Occults Rift Company. Athought controlling headset (not shown) made by the Emotiv Company, isconnected to the computer. A body rail 1382 is connected to the imagingdevice.

A cluster of body contact health sensors similar to the contact healthsensors used to contact the user's feet. The contact health sensor arelocated within a viewable outline that the user puts their feet on. Theuser's steps on the health sensors, when in the camera viewing area.Body imaging lasers are connected to the computer. The body viewing areais in semi-cube of cameras 1304.

Standing Full Body Scan by Stationary Cameras. Operation

The standing user sees the images of their body taken by the cameras, inthe Hololens headset 3D display, as shown in FIG. 13. The user can usetheir thoughts, eye tracking, midair hand gestures, or voice commands tochange the view of their body that is being shown in on the display. Theuser uses the Emotiv thought device, to input their thoughts into thecomputer. The thoughts control or direct the view of the display. Thethough input can control a menu shown on the display, which can controlthe camera, etc.

The cameras 1302 on the floor of the device, compress into the floorwhen walked on. The compressed cameras image the sole or bottom of theuser's feet that are on top of the camera. The user can steady andsupport their body by holding on the body rail 1382. The floor is clear,allowing the cameras to view the user's bottom of their feet.

The user stands in an area with in view of the cameras. The camerasimages the user's body. The user views their body on the display. Theuser can zoom the camera's view in and out. The body imaging lasers 1380fluoresce the user's body, allowing the cameras to create a 3D images ofthe user's body.

The cameras and their lens can tilt in the direction, of the area thatthe user wants to view on the tablet display. The tilting allows a moredirect or perpendicular view of the viewed area. Increasing the directview of the camera lens, increase the clarity of the view, and lessensdistortion of the view if the cameras view was stationary. Thestationary cameras view may be off center to a viewed area. The computerdirects the lens tilting motors to move the tilt of the lens to anoptimal viewing tilt. The cameras view can also be kept in a stationaryposition.

The user can view their body and look for possible health concerns. Theless clothes on the body, the more of the user's body can be viewed,such as, the user being nude, or in a two piece bathing suit may allowmore skin viewing area to be viewed.

The user stands in the viewing area, and holds on to a support pole. Thetilting stationary cameras view the user. The user is viewed by themoving cameras. The user is scanned by the 3D imaging lasers. The scameras view, and the 3D view is shown on the display, and viewed by theuser. The different cameras views are stitched tighter, and shown in awindow on the display. The 3D view is shown in its own window.

The computer analyses the views of the user, for possible skin cancer orother health ailments. If health ailments are detected, the detectedaliment data is shown on the display. Health data that is normal orregular is shown on the display, such as, body temperature, blood sugar,blood pressure, body weight, heart rate, body fat percentage, etc.

Standing Body Scan by Health Sensors, and Camera Description

A breathing tube 1488 is attached to the camera device, as shown in FIG.14. A breath malaria detector, developed by the Commonwealth Scientificand Industrial Research Organisation (CSIRO), of Australia is attachedto the inside the tube. A lung cancer breath sensor made by Metabolomx,of California, or the University of Latvia is attached to inside thetube 1488, and connected to the computer. A stomach cancer breath sensormade by researchers in Israel is attached to inside the tube 1488, andconnected to the computer.

A breath diabetes sensor developed by researcher in Massachusetts, isattached to inside the tube 1488, and connected to the computer. A Heartfailure breath sensor made by Cleveland Clinic researchers is attachedto inside the tube 1488, and connected to the computer. Kidney failurebreath sensor made researchers is attached to inside the tube 1488, andconnected to the computer. A breath tuberculous TB sensor is attached toinside the tube 1488, and connected to the computer.

An ultra sound sensor 1498 made by Royal Philips company, is connectedto the computer. A rotating user platform 1484 is connected to thecomputer.

Standing Body Scan by Health Sensors, and Camera Operation

The breath malaria detector receives the breath of the user when theuser blows into the breath tube 1488, and diagnoses malaria by detectingdistinctive sulfur-containing chemical compounds in a patient's breath,as shown in FIG. 14. The malaria detector tests the breath for malaria.The breath is tested for diabetes, also a fruity breath odor, or an odorsimilar to acetone can point to a serious complication in diabeticpatients called ketoacidosis. The tuberculous TB sensor searches for thebreath signs of TB.

The breath is tested for lung and stomach cancer, using gaschromatography-mass spectrometry (GCMS). The breath is tested for kidneyfailure, which may be indicated by a mouth that smells fishy,urine-like, or similar to ammonia. Signs of heart failure are breathtested using mass spectrometry technology to analyze the breath samplesfor molecular and chemical compounds.

Ultrasound Sensor

This ultrasound sensor 1498 test uses sound waves to create images ofthe body and the internal organs. The camera moving device contacts theultrasound sensor to the user's body. The sensor can be stationary onthe body, or slowly moved on the body. Contact with the body maybe inareas, such as, the heart, arteries, and womb, etc. The sensorinternally views the internal area, to easily and confidently assessdisease states, and determine treatment. The ultrasound can be used forecho cardiograms, and for imaging the contents of the womb duringpregnancy. The sensor is an Anatomically Intelligent Ultrasound (AIUS)tool that brings advanced quantification, automated 3D views and robustreproducibility to cardiac ultrasound imaging. An ultra sound gel may beused on the sensor during contact with the body to convey and receiveacoustic energy (sound waves) to the body. The sensor extends andretracts into the moving device.

The user operates the joystick 1486 with contact from their fingers. Thejoystick controls the display's view of their body, and displayed menu,as shown in FIG. 14.

The platform 1484 the user stands on rotates, to let the camera andhealth sensors scan the whole body. The user stands on the body movingbase, the base spins slowly to the left or right. The user or computercontrols the rotation of the base. The user's body facing the cameras,is fully scanned as the users body moves in relationship to the cameras.

The camera 1402 body health sensors are used to view and detect thehealth of user's body. The three camera moving devices 1404 move thecamera and health sensors over the body. For safety the scanner turnsoff, if they contact the user's body inadvertently. The moving devicemoves the camera's view of the body as it moves over the body. Themoving device keeps the cameras view to the user's perpendicular body asit move over the user's body, as shown in FIG. 15.

A User or Computer Directing a Bidet Water Stream Description

A video camera 1602 is attached to one of two bidet wands. The camera isconnected to a computer (not shown), as illustrated in FIGS. 16, 17, and18. The camera 1602 is waterproofed. The camera lens is positioned inthe wand with a view of the user's posterior. The second wand 1602 has awater nozzle. The wands are connected to a bidet 1614. The bidet islocated inside a toilet bowel 1624. The bidet is connected to thecomputer. A display 1608 is connected to the computer. A user Leap 3Dmidair hand gesture recognition input device 1656, is made by the LeapCompany, and is connected to the computer. The computer comprises aprocessor, the processor is programmed with a system operating software.The processor is connected to a memory for storing and retrieving data.

The camera moving wand 1604 has the camera 1602, an ultrasonic distancesensor 1652, a camera lens and distance sensor cleaning air nozzle 1618,bottom air dryer nozzle 1696, and a light 1628. The ultrasonic distancesensor 1652 is connected to the computer. The light is connected to thecomputer.

In an alternate embodiment the bidet wand components could be attachedto one bidet wand. The one wand could have the water stream nozzle, andthe camera, the ultrasonic distance sensor, the light, the air lenses,and the air body dryer nozzle.

The computer is programmed with ultrasonic distance measuring software,genital recognition software, fecal or blood recognition software,automatic bidet operating software, Leap mid-air hand gesturerecognition software, and system operating software, etc.

A User Directed Bidet a Water Stream or Air Stream, Operation

The bidet water wand 1612 is used to stream water 1622 to the user'sfront 1642 and back elimination 1640 positions, as illustrated in FIGS.16, 17, and 18. A user can move the bidet water stream, over their frontand back elimination positions, and view the water contacting theelimination position, on the on the display 1608. The assembled bidetcomponents, allow the user to visually direct, the water stream, totheir elimination position while they are sitting on a toilet seat on atoilet 1616.

The user can view fecal matter on their back elimination position. Afemale user can view blood in the front elimination position. The waterstream can be directed to the fecal matter or blood until there isvisual confirmation that they have been washed off. After the washingthe positions can be checked for any remaining fecal matter or blood,and if found the position can be rewashed.

When the user sits on the toilet seat, the light 1628 activates andilluminates the user's elimination positions. After eliminating the usercan move the bidet water over their front and back elimination position,and view the water contacting the elimination position on the on thedisplay.

The camera 1602 views where the water stream 1622 contacts the user. Theview of the water stream, allows the user to visually direct the waterstream to locations on their elimination position while they are sittingon the toilet seat. The camera views the positions before, during andafter washing. The view are sent to the computer. The computer sends theimages to the display. The display shows the video images of the user.An air stream is continually streamed over the lens to remove water thatmay fall on the lens. The ultrasonic distance sensor, allows thecomputer to measure the camera wands distance from the user, to maintainan optimal distance from the user. The computer visually senses thedegradation of the camera's image, and turns off the air stream andactivates the water stream.

The midair hand gesture input device is used to move the bidet wands.The user operates the bidet, by inputting using the Intel 3D midairinput device 1656. The user uses the user's fingers movements inmid-air, to operate the mid-air input device. The midair input device'sdirects the movement of the wands and camera, etc. The user input midairdevice controls a cursor 1620 on the display screen 342. The user'sfinger movements move the cursor. The camera follows the movement of thecursor. The water stream 1622 streams the water, to where the cursor1620 is located, on the shown body on the display.

The camera and water stream can move in unison. The camera views wherethe water stream contacts the user, and follows the stream, as thestream's contact moves on the user's elimination positions, and aroundthe positions.

Bottom Air Dryer

The user directed air blower 1696 in the wand, allows the user to blowair on the user's elimination position. A second air blower (not shown)at the back of the toilet bowel 1624, can also dry the user's bottom,simultaneously while the user directs the air stream at the user'selimination position. The input device is used to direct the flow of airto desired positions on the user's posterior, and view the directing ofair, on the display. The air removes water from the user's eliminationpositions

Automatic Computer Streaming of Water to the Elimination PositionsOperation

The user requests, by inputting into the computer that either theirfront or back elimination positions be washed. The computer moves thecamera, and water nozzle, to the requested elimination position. Theposition is either a default front or back elimination portion. Afterarriving at the default elimination position, the computer visuallysearches for the associated elimination position, such as, searching forfemale genitalia.

The computer identifies the female elimination position, and location.The computer automatically identifies the user's elimination positionsand streams water to the elimination positions location. The computervisually aims the water stream at the elimination position. The aimingof the stream of the water, by the computer assures that the waterstream is accurately delivered to the elimination position, when theelimination position may be positioned at different locations atdifferent times, or if the user moves while being washed.

The computer can move to either a female and or male back eliminationposition, or a female's front elimination position. The male can requestto have their front elimination position washed. A clock shown on thedisplay countdowns down, showing the duration of the water wash cycle,starting at 20 seconds. The water stream will follow the user'selimination position if the user move while water is being streamed tothe elimination position.

The bidet's water stream moves to the user's elimination positions,instead of the user having to move the position to the bidet waterstream. If the user is sitting off center on the toilet seat, the wandwill move the water stream, to the users off center eliminationpositions. The water stream will adjust its position, to target theelimination positions. Different locations of elimination positionsmaybe due to, people having different shapes and sizes.

The computer can view and identify fecal matter on their backelimination position, by using the fecal or blood recognition software.A female user can view blood in the front elimination position. Thewater stream can be directed to the fecal matter or blood until there isvisual confirmation that they have been washed off. After washing thepositions can be checked for any remaining fecal matter or blood, and iffound the position can be rewashed.

After the user's elimination position is washed, the computer directs astream of air from the wand, at the user's elimination position to dryand remove water from the position. The computer identifies the washeduser elimination position, by remembering the position that was justwashed. Air is streamed out of the air nozzle 1696 in the bidet wand, asillustrated in FIG. 18.

The clock displays a countdown, showing the duration of the air dryingcycle, starting at 25 seconds. The elimination position dryer finisheswhen the clock counts down to 0 seconds. The bidet's air stream moves tothe user's bottom cleaning positions without the user having to move tothe air stream.

Software Flowcart

FIG. 25 shows software steps of the operation of the user or computerdirected bidet water stream, user input to move camera and or bidetwater nozzle to a desired location, detected by a user input device(2502), user input request detected for computer to stream water toeither a front or back elimination position, by a user input device(2504), light illuminates elimination positions (2506), camera sendsview of posterior to display (2508), camera and water nozzle move torequested location (2510), user water stream activation request detected(2514), water stream is streamed until feces or blood is no longervisible (2520), camera and water nozzle stop when reaching targetedelimination position (2512), computer visually searches for eliminationposition (2524), elimination position is identified (2526), feces andblood is visually searched for on elimination position (2528), feces andor blood identified (2530), water stream nozzle aims at eliminationposition, feces and or blood (2532), water stream is activated (2534),water is streamed for a predetermined time period, or until feces andblood no longer visible (2536), water stream is turned off at end oftime period, or until feces and blood removed (2538), camera and nozzlereturn to default waiting location (2540).

Block Diagram

FIG. 24, illustrates a block diagram of some of the hardware componentsconnections of the device, camera (2402), display (2404), computer andmotor controller (2406), camera moving device (2408), light (2410), userinput device (2412), camera viewing angle measuring device (2414),camera distance from user measuring device (2416), BIDET WATER NOZZLEWAND (2418).

Three Embodiments Combined, a Body Viewing Camera, Health Sensors andHealth Cameras, and a Visually Directed Bidet Water Stream Descriptionand Operation

Three embodiments can be combined into one embodiment, such as, a usercan view a cameras view of their body on the display, they can sense ormeasure their health with the camera and health sensors, and they or acomputer can direct a bidet water stream on their elimination positions,as illustrated in FIG. 6.

The three embodiments are described and listed. 1. The body viewingcamera 604 is helpful in allowing the user to view, on a display, areasof their body that are difficult to view, such as, the back, andposterior. The camera can also be moved to view the entire body.

2. Health sensors, and cameras attached to a toilet seat 608 measure anddiagnose the health conditions of the user body, such as, bloodpressure, blood glucose, or skin cancer, etc. Depending on the healthsensors, and cameras the sensors, and cameras can either view or contactareas of the user's body. The health results are shown on a displayviewable by the user.

3. The bidet water stream is directed at the user's eliminationpositions, visually by a user, or a computer. A camera connected to abidet wand 606, views the bidets water stream's contact on the user'selimination positions. The user or computer can use the view of thewater stream, to move the water stream to desired areas on theelimination positions. The visual directing of the water stream allows amore accurate directing of the water stream on the user's eliminationpositions. Fecal matter can be automatically visually identified andwashed off by the computer. The user can visually view their eliminationpositions to be sure that they have been thoroughly washed.

CONCLUSIONS, RAMIFICATIONS AND SCOPE Conclusion

From the preceding description and drawings it becomes apparent that theuser, may use the user health camera to manually or automaticallyvisually inspect difficult to view areas of their body, such as, theirposterior, and back. The heath sensors may preform health test on theuser's body. Health information may help a user become more aware oftheir body. The user or computer can visually direct a bidets waterstream to their elimination positions.

The camera moving device can be used to scratch an itch on the user'sbody. Minor surgery could be performed on the body's surface, such as,the removal of warts, etc.

Thus the reader will see that at least one embodiment, of the userhealth camera, and health sensors, provides a more reliable, healthierand economical device that can be used by persons of almost any age. Itwill be apparent that various changes and modifications can be made,without departing from the scope of the various embodiments, as definedin the claims.

Thus the scope of the embodiments, should be determined by the appendedclaims, and their legal equivalents, rather than by the examples given.

I claim:
 1. A method for viewing a user's body comprising, viewing auser's body with one or more cameras connected to a computer, whereinthe one or more cameras are positioned to view the user's body, whereinthe view of the user's body is sent to the computer; showing the view ofthe user's body with a display connected to the computer, wherein theview of the user's body is sent to the display by the computer,positioning a plurality of the one or more cameras on a bottom of atoilet seat lid of a toilet to view the user's back while the user issitting on the toilet, detecting a skin cancer from the view of theuser's back with a cancer detecting software in the computer, displayinga detection of the skin cancer on the display with a detection displaysoftware in the computer.
 2. The method of claim 1, further comprisingthe step of: providing skin cancer illuminating LED lights on the bottomof the toilet seat lid.
 3. The method of claim 1, further comprising thestep of: expanding the toilet set lid vertically to allow the pluralityof the one or more cameras to completely view the user's back.
 4. Themethod of claim 1, further comprising the step of: alerting the user tothe detection of the skin cancer with a speaker.
 5. The method of claim1, further comprising the step of: communicating the detection of theskin cancer from the computer to healthcare providers via the internet.6. The method of claim 1, further comprising the step of: displaying animage of the detected skin cancer on the display, wherein the image ofthe detected skin cancer is captured by the plurality of the one or morecameras.